All you need is to have a blueberry shake in the morning mixed with your protein
powder. I hear the Chinese have or are planting 23,000 acres in blueberries. They
already score higher on I.Q. tests then us. What do you think is going to happen
when they all start eating their blueberries?
E Magazine Special Edition, Winter 2005/2006
Blueberries The World’s
by William Faloon
Over the past year, a record number of independent studies have confirmed the
health effects of blueberries. Scientists tested blueberries against an array of
common disorders and discovered significant results.
Most impressive was the ability of blueberries to improve memory as well as undo
some of the degenerative changes seen in aging neurons. One study showed that the
effect of blueberries in suppressing free radical and inflammatory damage in the
brain was analogous to long-term calorie restriction. These findings hint that
blueberries might be able to reverse certain aspects of brain aging!
Scientists at the U.S. Department of Agriculture’s Human Nutrition Research
Center on Aging proclaimed blueberries to be one of the world’s most
healthful foods. The media responded by publishing numerous reports
attributing wide-ranging benefits to blueberries.
Researchers at the U.S. Department of Agriculture tested more than 100 different
kinds of food for total antioxidant capacity per serving. The study included 24 types
of fruits, 23 types of vegetables, 10 types of nuts, 4 types of dried fruits, and 16
types of herbs and spices. Blueberries, both wild and cultivated, scored highest in
total antioxidant capacity per serving among all the fruits, vegetables, spices, and
Packed with unique antioxidants, blueberries neutralize free radical damage to the
collagen matrix of tissues that can lead to a host of degenerative disorders. The
blue-red pigments found in blueberries improve the integrity of support structures in
the skin, joints, and vascular system. Blueberry pigments have been shown to
enhance the effects of vitamin C, improve capillary integrity, and stabilize the
collagen matrix (the structural substance of all body tissues). These pigments work
primarily by preventing free radical and inflammatory damage. Recent studies,
however, have identified exciting new mechanisms by which blueberries guard our
Maintaining Arterial Structure
Blueberry extracts help maintain healthy blood flow via several mechanisms
including inhibition of LDL oxidation, decreased platelet aggregation, and reduced
inflammation. Blueberries also help maintain healthy endothelial function by
preserving nitric oxide bioavailablity.
The endothelium is a thin layer of cells that lines the inner arterial wall. Aging and
poor health habits results in endothelial cells becoming dysfunctional, which leads to
atherosclerosis. A study published in the August 2005 issue of the Journal of
Medicinal Food shows that blueberries function via multiple mechanisms to protect
against endothelial dysfunction.
The scientists who conducted this study stated that consumption of blueberries even
in late life could improve endothelial function. The conclusion of these scientists was:
“Whole wild blueberries may have implications in blood pressure regulation
and could prove to have a therapeutic role in improving cardiovascular
Studies of human populations suggest that high intakes of fruits and
vegetables reduce the incidence of degenerative neurological disorders.
In a study published in the journal Pharmacological Research (August
2005), blueberry extract fed to rats for 30 days resulted in improved
learning on several cognitive performance tests. The researchers concluded
that blueberries may be beneficial in the prevention of age-related memory
Blueberry Crosses Blood-Brain Barrier
At the University of Barcelona-Spain, scientists have shown that blueberry
is effective in reversing age-related deficits in neuronal signaling and
behavioral parameters. What was unclear, however, is whether the active
constituents in blueberry actually cross the blood-brain barrier.
In a study published in the April 2005 issue of Nutritional Neuro-science,
these same scientists fed blueberry to rats for 8-10 weeks. Analysis of the
brains of these rats indicated that blueberry phytochemicals had indeed
crossed the blood-brain barrier and were found in regions of the brain
responsible for memory and learning (e.g. the cerebellum, cortex,
hippocampus, and striatum) of the blueberry supplemented rats, but not the
controls (that did not receive blueberry extract).
These findings are the first to show that blueberry compounds cross the
blood brain barrier and localize in various brain regions important for
learning and memory. Most significantly, these scientists found that greater
concentrations of blueberry in the brain cortex correlated with enhanced
Reversing Brain Aging
In a study published in the September 1999 issue of the Journal of
Neuroscience, rats supplemented with blueberry starting at the age of 6
months showed reduced age-related declines in neuronal and cognitive
function. When 19-month old rats were supplemented with blueberry, the
effect was a reversal of many age-related deficits. The scientists concluded
the study by stating antioxidant rich foods may be beneficial in reversing
the course of neuronal and behavioral aging.5
Move forward to year 2005, and scientists at Tufts University discover
a specific mechanism by which blueberries are able to reverse
neurological aging. When cells are exposed to toxic stress
factors such as free radicals or inflammatory inducers, a
protective mechanism involves the generation of heat shock
proteins. Young organisms readily generate heat shock
proteins to protect against free radicals and other toxic agents,
but older organisms are unable to generate these protective
heat shock proteins in sufficient quantity.
In a study published in the April 2005 issue of Neurobiology Aging,
scientists supplemented the diets of young and old rats with blueberry. A
group receiving no blueberry served as the control. After 10 weeks, the
brains of these rats were subjected to an inflammatory challenge and the
heat shock protein response was measured. As expected, the brains of
young rats produced a strong heat shock protein response, while the old
rats made very little protective heat shock protein. The old rats
supplemented with blueberry, however, produced as much heat shock
protein as the young rats. In this study, the blueberry diet completely
restored the heat shock protein response of old rats to that of young rats.
This suggests that short-term blueberry intervention may result in
protection against a number of neurodegenerative processes in the brain.6
Protecting Against Brain Ischemia
When blood flow is interrupted to the brain, significant and permanent
damage often results. Blueberries may significantly lessen this damage,
suggests a study published in the May 2005 issue of the Journal of
Experimental Neurology. In this study, rats fed diets enriched with
blueberries, spinach, or spirulina suffered the loss of fewer brain cells and
recovered significantly more of their ability to move following a blood flow
interrupting event. The size of the area of the brains damaged in the rats
receiving the blueberry, spinach, or spirulina diets was significantly less
than the control group.7
Improving Auditory Processing
Scientists explored whether a 2-month dietary supplementation of
blueberry extract could reverse or retard the age-related decline in
temporal auditory processing speed observed in the aged rat. As reported in
the August 2005 issue of Neuro-biology Aging, aged rats supplemented with
blueberry responded vigorously to measurements in the primary auditory
cortex of the brain compared to the control group not receiving blueberry.
The improvement was so significant that the aged rats fed blueberry were
very similar to younger rats. The scientists concluded:
“These results suggest that age-related changes in temporal processing
speed in the primary auditory cortex may be reversed by dietary
supplementation of blueberry phytochemicals.”8
Enhancing Survival of Neural Transplants
Transplantation of neural tissue has been explored as a potential therapy to
replace dead or dying cells in the brain, such as after brain injury or
neurodegenerative disease. However, survival of transplanted tissue is
poor, especially when the transplant recipient is of advanced age. Even
middle-aged host animals exhibit poor survival after fetal hippocampus
In a study published in the journal Cell Transplant (2005), when middle
aged rats were supplemented with blueberry extract, hippocampal graft
growth was significantly improved and cellular organization of grafts was
comparable to that seen in tissue grafted to young host animals. This study
corroborates previous studies that have demonstrated improvement of
neuronal deficits in aged animals given a diet supplemented with blueberry
Cancerous cells are able to grow and invade surrounding tissue by secreting
enzymes that break down the surrounding matrix that would otherwise
confine them. A study published in August 2005 in the Journal of Nutritional
Biochemistry showed that blueberry flavonoids down-regulate these
structure-degrading enzymes that enables cancerous cells to spread and
invade other tissues.10
Controlling Undesirable Cell Division
Healthy cell division involves regulated cell proliferation and normal
programmed cell destruction (apoptosis). In a study published in the
September 2005 issue of the Journal of Agriculture Food Chemistry, colon
cancer cells that were growing and dividing abnormally were exposed to
blueberry extract. The results showed that proliferation was impeded by
50% and factors necessary to induce apoptosis were activated. The
scientists who conducted this study stated that blueberries may help reduce
colon cancer risk.11
Blueberries have the highest antioxidant capacity of all fruits and
vegetables. Recent studies, however, indicate that blueberries possess
multiple, diverse health benefits including maintaining and enhancing
endothelial function, helping to prevent age-related memory and learning
deficits, rejuvenating brain cell function, and helping to prevent cancer.
Strong scientific evidence shows that blueberries protect against the most
prevalent age-related maladies. Logically, liberal blueberry consumption is a
critical strategy to obtain optimal benefit and protection against age-related
1. Wu X, Beecher GR, Holden JM, et al. Lipophilic and hydrophilic antioxidant
capacities of common foods in the United States. J Agric Food Chem. 2004
2. Norton C, Kalea A, Harris P, et al. Wild blueberry-rich diets affect the
contractile machinery of the vascular smooth muscle in the Sprague-Dawley
rat. J Med Food. 2005, 8;(1):8-13.
3. Ramirez MR, Izquierdo I, Rasseira MD, et al. Effect of lyophilized
Vaccinium berries on memory, anxiety and locomotion in adult rats.
Pharmacol Res. 2005 Aug 9; [Epub ahead of print].
4. Andres-Lacueva C, Shukitt-Hale B, Galli RL, et al. Anthocyanins in aged
blueberry-fed rats are found centrally and may enhance memory. Nutr
Neurosci. 2005 Apr;8(2):111-20.
5. Joseph JA, Shukitt-Hale B, Denisva NA, et al. Reversals of age-related
declines in neuronal signal transduction, cognitive, and motor behavioral
deficits with blueberry, spinach, or strawberry dietary supplementation. J.
Neurosci. 1999 Sep 15;19(18):8114-21.
6. Galli RI, Bielinski DF, Szprengiel A, et al. Blueberry supplemented diet
reverses age-related decline in hippocampal HSP70 neuroprotection.
Neurobiol Aging 2005 Apr 30; (Epub ahead of print)
7. Wang Y, Chang CF, Chou J, et al. Dietary supplementation with
blueberries, spinach, or spirulina reduces ischemic brain damage. Exp
Neurol. 2005 May;193(1):75-84.
8. de Rivera C, Shukitt-Hale B, Joseph JA, et al. The effects of antioxidants
in the senescent auditory cortex. Neurobiol Aging 2005 Jun 9;(E-pub ahead
9. Willis ., Bickford P, Zaman Y, et al. Blueberry extract enhances survival of
intraocular hippocampal transplants. Cell Transplant 2005;14(4):213-23.
10. Matchett MD, Mackinnon SL, Sweeney MI, et al. Inhibition of matrix
metalloproteinase activity in DU145 human prostate cancer cells by
flavonoids from lowbush blueberry (Vaccinium angustifolum) : possible
roles for protein kinase C and mitogen-activated protein-kinase-mediated
events. Nutr Biochem. 2005 Aug 17 (Epub ahead of print).
11. Yi W, Fischer J, Krewer G, et al. Phenolic compounds from blueberries
can inhibit colon cancer cell proliferation and induce apoptosis. J Agric Food
Chem. 2005 Sep 7;53(18):7320-9.
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